Global Sources
EE Times-Asia
Stay in touch with EE Times Asia
?
EE Times-Asia > Memory/Storage
?
?
Memory/Storage??

Growing audio needs in SoCs

Posted: 04 Sep 2012 ?? ?Print Version ?Bookmark and Share

Keywords:audio SoCs? processor? IP?

As consumer devices such as tablets, media players and home theater systems continue to integrate more audio functionality, the systems on chip (SoCs) designed for these devices become more complex. These SoCs must support a growing list of audio requirements such as a wider range of high-definition audio compression formats, multichannel audio content, higher sampling rates and advanced audio post-processing functions.

In addition to the DSP audio processor, audio SoCs need seamlessly integrated analog codecs to provide connections for microphone, line, headphone and speakers, as well as digital peripherals (e.g. I2S, S/PDIF). To deliver the necessary features, designers need to integrate more IP into the SoCs, and they need to do it with fewer resources, smaller budgets, and shorter project schedules.

Innovations in IP integration have traditionally been focused on the hardware aspects, but what really drives system complexity is the software. For audio applications, the software stack needs to support the latest audio standards from companies such as Dolby Laboratories, SRS Labs, DTS and Microsoft, as well as open source formats like Ogg/Vorbis and FLAC. All of these software components must be integrated in a media streaming framework and then into the application software running on the host processor.

Project schedules, which ultimately drive the dates of when the product is introduced to the market, are largely determined by the time it takes to build the entire application software stack. The ability to quickly integrate all the necessary hardware and software IP into a complete system can turn a great design undertaking into a real business success. Being the first to market with the right features at a lower cost is a significant differentiator.

Design teams that leverage a pre-verified hardware and software IP subsystem can drastically reduce design integration effort, lower integration risk and accelerate time to market. IP subsystems enable them to take advantage of higher integration levels and the latest technologies for system integration, including prototyping to accelerate software development and full system validation.

Pre-integrated, pre-verified audio IP subsystem
Most IP suppliers today only provide the individual hardware components and some pieces of the software (for example, just the audio processor and a set of individual software codecs and simulation models). Integrating all of the IP and creating the full software stack is left to the SoC integrator, who needs to carefully configure and connect all of the IP together; a tedious and time-consuming effort.

Often, both hardware and software portions are missing and have to be added by the design teams in order to create the complete 'end-to-end' solution. A complete audio subsystem includes an audio processor that is optimized for high-definition voice and multichannel surround sound; analog (line in/out, speaker and microphone) and digital (I2S and S/PDIF) interfaces; infrastructure components including clock management; and a significant amount of audio software.

Audio processor
Audio processors are really optimized for ... processing audio data! There have always been many different audio formats, with the most popular one today being MP3. New formats are being introduced every day, probably even now as you read this article. This will only continue and is largely driven by demands in the end-user (consumer) market.

With devices being connected to the internet, either via WiFi or 3G/4G networks, typical mobile formats are now appearing in home devices and vice versa. A great example is having multichannel, high-definition audio on a semi-portable device like a tablet; that in itself only has a stereo analog (headphone) output yet can playback audio to a home cinema system with surround speakers through an HDMI (High-Definition Multimedia Interface) or WiFi connection.

Audio processors therefore need to be prepared for high-definition formats, which is where a 32bit processor is ideal. Technologies in the market include processors that are based on very long instruction word (VLIW) architecture, whereas modern RISC-based processors with DSP extensions are more efficient in terms of silicon area, processing capacity and power consumption. All the parameters (for example cache sizes) inside the processor should be configurable by the designer because they know best how the target system behaves and how the processor fits in best.

1???2???3?Next Page?Last Page



Article Comments - Growing audio needs in SoCs
Comments:??
*? You can enter [0] more charecters.
*Verify code:
?
?
Webinars

Seminars

Visit Asia Webinars to learn about the latest in technology and get practical design tips.

?
?
Back to Top